DE746778C - Externally controlled Einroehrenkippgeraet with inductively coupled anode and grid circuit for the generation of saw tooth-shaped currents - Google Patents

Description

Externally controlled single tube tilting device with inductively coupled anode and grid circle for generating sawtooth-shaped currents. The invention relates Single-tube tilting devices for the generation of sawtooth currents, in which an inductive Coupling between anode and grid circle: the grid tube is present. Becomes a such a tilting device externally controlled, the synchronization pulse must: use, before the self-oscillating transformer tilting device tilts by itself.

In such a transformer tilting device, the moment the synchronized tilting process still a small grid current, and it must .by the external control of this electricity can be made to disappear. The disappearing one However, grid current creates a positive voltage on the grid of the tilt tube, the seeks to prevent the blocking of the tilting tube. It is therefore generally necessary that a very strong negative Synchron.isierimpuls on the grid of the tilting tube acts, so d: ate the through despite the positive voltage occurring at the grid the disappearing grid current is created, a blocking of the tube with certainty he follows. However, generating a large negative synchronizing pulse requires more effort and can complicate the circuit.

The invention is based on the knowledge that it is not necessary a very large negative synchronizing pulse: to feed the grid of the tilting tube if their grid current is small in relation to the anode current of the tilt tube. try have shown that the synchronization of the tilt tube in a surprising way can be significantly improved if according to the invention at one Transfo, rrnatorkippgerät- one tilting tube is used in which the ratio from anode current to grid current with the same anode and grid voltage greater than 5 is. When using such a tube, the tilting device is also blocked possible with a small negative impulse. At the same time you get a big one Anode current at low anode voltage, which reduces the tube loss: power. thus an increase in the efficiency of the flip-flop is achieved.

The product of the space charge coefficient and the ratio of the anode current and grid current with the same anode and grid voltage is appropriately greater than 3.5. 10- to choose.

The rate load constant must be large so that the internal resistance of the tube is small. This ensures a great steepness of the characteristic in the case of the sawtooth trace and thus the desired linearity of the sawtooth oscillation through , however, one. Since a large anode current is possible inside the tube, there is a relationship between the space charge constant and the ratio between the anode current and the grid current.

The anode and grid voltages are used to select the tube of the invention to make the tube the same size and under these conditions to check whether the set Requirement is met. It is not necessary for the test that the tube is arranged in a flip-flop. However, it is particularly advantageous if the flip-flop circuit itself works in such a way that the anode voltage is applied immediately before the flip-flop and the grid tension of the tilt tube are the same.

The drawing is based on an exemplary embodiment schematically Structure of a tube shown, according to the invention for a transformer tilting device a television set is to be used. The cathode i of the tube is yours Control grid -2 surround, as -s is inductively coupled to the anode 3. For improvement of the tube properties, it is convenient between the control grid and the cathode i a space loading grille d. to arrange that a ger -e pos in, itive tension of z. B. + i o volts i has. It is advantageous to choose the tube construction so that that the control grid 2 lies in the electrode shadow of the space charge grid -i.

This ensures that the electrons flying from the cathode be deflected by the bars of the grid .I and those behind them Bars of the grid 2 do not meet, so that a small grid current across the grid circle of the control grid 2 flows. 'Becomes a sufficiently large, negative synchronization impulse placed on the control grid 2, the tube is blocked and the entire flow of electrons, which emanates from the cathode i will flow over the space charge grid.I, whereby a undesirably large current occurs. In order to limit this barely charge grid current, is it is advantageous to connect a resistor to the space charge grid, which is from a Capacitor is not blocked. It can also use the space loading grille d directly for synchronization can be used so that a negative pulse is imposed directly on this one grid and thereby a complete blocking of the tube takes place. By the arrangement of a Rauinladegitter can the space charge constant and the ratio of anode and Grid current be influenced. The tube is also expediently designed in such a way that that the internal resistance between space loading grids d. and cathode i greater than iooo Ohin is, whereby it is achieved that when synchronizing the space charge grid required synchronization power is not too great.

In order to achieve the lowest possible loss of performance, it is necessary to to choose a large space load constant. But this also creates a Increase in the grid anode capacitance, which is undesirable in itself. To this increase To avoid the grid anode capacitance, increasing the distance between Control grid and anode of the tilt tube between these two electrodes one with the Anode 3 grid 5 connected in an alternating current manner may be arranged.

To reduce the grid current, it is also useful that the Holding bars of the grid. No emission current hits: To achieve this, you can the cathode at the point that is facing the retaining webs, not with emissive Material provided. The cathode is covered on all sides with an emissive layer provided, it is useful i to arrange additional webs 6, their potential is brought to zero or a negative value.

Claims (1)

PATENT CLAIMS: i. Externally controlled single-tube tilting device with inductively coupled anode and grid circuit for generating sawtooth-shaped currents, characterized in that a tilting tube is used in which the ratio of anode current to grid current is greater than 5 for the same anode and grid voltage. =. Tilting device according to Claim z, characterized in that the product of the space charge constant. and the ratio of anode current and grid current for the same anode and grid voltage is greater than 3.5 # I0-3. 3. Tilting device according to claim i, characterized in that a space loading grid is arranged between 'cathode and control grid. q .. Tilting device according to claim 3, characterized in that the control grid of the tube lies in the electron shadow of the space charge grid. 5. Tilting device according to claim i, characterized in that the cathode of the tilting tube has no -emissive layer on the side facing the grid holding webs. 6. Tilting device according to claim i, characterized in that the cathode is provided on all sides with an emissive layer. is and between the holding webs of the next grid and the cathode shielding webs are arranged, their. Potential is held at zero or at a negative value. 7. tilting device according to claim -3 or q., Characterized in that the space loading grid pulses are supplied to synchronize the tilting device. . Tilting device according to Claim 7, characterized in that the internal resistance between the space charge grid and the cathode is greater than 100 ohms. G. Tilting device according to Claim 3, characterized in that a resistor which is not bridged by a capacitor is arranged in the space charging circuit. ok Tilting device according to claim i, characterized in that a grid connected to the anode in an alternating current manner is arranged between the anode and the control grid. To distinguish the subject of the application from the state of the art, no publications were taken into account in the granting procedure.